Airbag arrangement and tools

ABSTRACT

A fixing element fixes a part to a support wall. When the fixing element is inserted into an opening in the support wall and reaches a predetermined end position, the fixing element locks to the support wall. The fixing element includes a stop element, a snap-on element, and an unlocking element. The stop element bears against a side of the support wall when the fixing element is locked to the support wall. The snap-on element is positioned on an inner side of the support wall when the fixing element is locked to the support wall. The unlocking element is connected to the snap-on element. The unlocking element is configured to permit the snap-on element to be unlocked and the fixing element to be removed from the opening. An installation tool and a testing tool may be used in conjunction with the fixing element.

CROSS-REFERENCE TO RELATED PATENT APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.11/611,676, filed Dec. 15, 2006, which is a continuation-in-part ofInternational Application PCT/DE 2005/001508, which has an internationalfiling date of Aug. 25, 2005. The International Application was notpublished in English, but was published in German as WO 2006/026956. Allof the foregoing applications are incorporated by reference herein intheir entireties.

BACKGROUND

The present application relates to a fixing element, to an installationtool for installing a fixing element, and to a testing tool for testingthe installation of the fixing element. The application further relatesto an airbag arrangement for a vehicle restraint system including afixing element.

A fixing element is disclosed in the published specification forinternational patent application WO 02/28690 A1, which is incorporatedby reference herein in its entirety. This fixing element is formed by afixing clip with which an airbag, as the part which is to be fixed, canbe fixed to the outside of a support wall, for example a body part of avehicle. In specific terms, the fixing clip for fixing is latched in anopening in the support wall. For this purpose, the fixing clip isdesigned in such a manner that it can be inserted into the opening inthe support wall and reaches through the latter, a lock occurring when apredetermined end position is reached upon insertion of the fixing clip,so that the fixing clip is prevented from being pulled out of theopening in the support wall. For the locking, the fixing clip has asnap-on element and a stop element. In the locked state of the fixingelement, the stop element bears against the outside of the support wall.The “outside” of the support wall is understood here as meaning thatside on which the part which is to be fixed, i.e. the airbag, islocated. The snap-on element is located on the other wall side of thesupport wall, i.e. on the rear side of the support wall, which sidefaces away from the airbag, the snap-on element bearing against the rearside of the support wall in order to lock the fixing element.

Fixing elements for producing a clip connection are known from the priorart. Fixing elements of this type are generally arranged in a receivingopening and have latching elements via which they can be latched to thereceiving opening. For example, fixing elements are used for fasteningelements of a vehicle occupant restraint system in the vehicle interior(airbag clips). In this case, in particular, airbags or parts of anairbag module are connected to parts of the vehicle body via the fixingelement.

An airbag clip for fastening airbags to part of the vehicle body isknown, for example, from the document US 2005/0225061 A1, which isincorporated by reference herein in its entirety. This airbag clip has aclip-like side which can be introduced into a receiving opening of avehicle part until it latches in the receiving opening. For theinstallation of an airbag, the airbag clip is guided through fasteningopenings of the airbag and the clip is then latched in a receivingopening of a body part or of a retaining element connected to thevehicle body. The insertion and latching of the airbag clip take place,for example, by hand.

Furthermore, the patent publication DE 32 12 160 A1 (which isincorporated by reference herein in its entirety) discloses aninstallation tool onto which a plurality of fixing elements can beplaced and the fixing elements can then be introduced and latchedsuccessively in different receiving openings with the aid of theinstallation tool.

Airbags of vehicle restraint systems may be fastened to a vehicle bodyor a holding element connected to the vehicle body via a clipconnection. For this purpose, the airbags may have, inter alia,fastening openings through which a fastening clip (fixing element) isguided, the fastening clip latching into corresponding receivingopenings of the vehicle body or of the holding element and thereforefixing the airbag.

In order to permit rapid installation of an airbag, the fastening clipsare frequently already inserted into the fastening openings of theairbag before the airbag is installed on the vehicle body. To installthe airbag, the fastening clips then just have to be pressed into thecorresponding receiving openings in the vehicle body.

SUMMARY

One exemplary embodiment relates to a fixing element to fix a part to asupport wall by inserting the fixing element into an opening in thesupport wall. The fixing element is configured such that when the fixingelement is inserted into the opening and reaches a predetermined endposition, the fixing element locks to the support wall such that thefixing element is prevented from being pulled out of the opening. Thefixing element comprises a stop element. The stop element bears againstan outer side of the support wall when the fixing element is locked tothe support wall. The fixing element also comprises a snap-on element.The snap-on element is positioned on an inner side of the support wallwhen the fixing element is locked to the support wall, the inner sidefacing away from the part to be fixed. The fixing element also includesan unlocking element connected to the snap-on element. The unlockingelement is accessible from the outer side of the support wall. Theunlocking element permits the snap-on element to be unlocked and thefixing element to be removed from the opening.

Another embodiment provides an installation tool for installing a fixingelement in a receiving opening of a holding element. The installationtool comprises a guide shank to introduce the fixing element into thereceiving opening. The guide shank has a structure which prevents theguide shank from being released from the fixing element if the fixingelement is not secured in the receiving opening.

Yet another embodiment provides a testing tool for testing aninstallation of a fixing element installed with an installation tool ona holding element. The testing tool comprises a testing mechanism forchecking a position of the fixing element with regard to the holdingelement. The installation tool includes a guide shank to introduce thefixing element into the receiving opening, and the guide shank has astructure which prevents the guide shank from being released from thefixing element if the fixing element is not secured in the receivingopening.

Another exemplary embodiment relates to an airbag arrangement for avehicle restraint system. The airbag arrangement includes at least oneinflatable airbag and at least one fixing element for fastening theairbag to a vehicle body. The fixing element reaches through a fasteningopening of the airbag. The airbag arrangement further comprises ananti-twist protection which is distinct from the airbag and whichprevents the fixing element from twisting in the fastening openingbefore the airbag is fastened to the vehicle body.

It is to be understood that both the foregoing general description andthe following detailed description are exemplary and explanatory only,and are not restrictive of the invention as claimed.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other features, aspects, and advantages of the presentinvention will become apparent from the following description, appendedclaims, and the accompanying exemplary embodiments shown in thedrawings, which are briefly described below.

FIG. 1 illustrates a front perspective view of a fixing elementaccording to an embodiment.

FIG. 2 illustrates a rear perspective view of the fixing element of FIG.1 after it is fixed to a support wall.

FIG. 3 illustrates the fixing element of FIG. 1 when fixed to a supportwall.

FIG. 4 illustrates the fixing element of FIG. 1 when used for fixing apart to a support wall.

FIG. 5 is an additional view of the fixing element of FIG. 1 when usedfor fixing a part to a support wall.

FIG. 6 is an additional view of the fixing element of FIG. 1 when usedfor fixing a part to a support wall.

FIG. 7 is an additional view of the fixing element of FIG. 1 when usedfor fixing a part to a support wall.

FIG. 8 is an additional view of the fixing element of FIG. 1 when usedfor fixing a part to a support wall.

FIG. 9 shows an exemplary embodiment of an airbag module which is fixedto a vehicle body by the fixing element.

FIG. 10 is an additional view of the embodiment of FIG. 9.

FIG. 11 is an additional view of the embodiment of FIG. 9.

FIG. 12 is an additional view of the embodiment of FIG. 9.

FIG. 13 is an additional view of the embodiment of FIG. 9.

FIG. 14 illustrates a sectional illustration of an embodiment of aninstallation tool.

FIG. 15 a shows a perspective view of the installation tool during theinstallation of a fixing element.

FIG. 15 b shows the installation tool after securing of the fixingelement.

FIG. 16 is a sectional illustration of an embodiment of a testing tool.

FIG. 17 a is a sectional illustration of a second embodiment of thetesting tool.

FIG. 17 b is a sectional illustration of a third embodiment of thetesting tool.

FIGS. 18 a and 18 b illustrate perspective views of furthermodifications of the testing tool.

FIG. 19 a shows a fastening tab of an airbag which is connected to aholding element via a fastening clip.

FIG. 19 b shows the components of the airbag arrangement of FIG. 19 a.

FIGS. 20 a and 20 b show an airbag arrangement analogous to the airbagarrangement of FIGS. 19 a and 19 b with anti-twist protection whichadditionally has a tab which can be folded over onto the head of thefastening clip.

FIG. 21 a shows a second variant of the airbag arrangement according toan embodiment.

FIG. 21 b shows the components of the airbag arrangement of FIG. 21 a;

FIGS. 22 a and 22 b show a second variant of the airbag arrangement withanti-twist protection which additionally has a tab which can be foldedover onto the fastening clip.

FIG. 23 a shows a third variant of the airbag arrangement.

FIGS. 23 b and 23 c illustrate the parts of the third variant of theairbag arrangement.

FIGS. 24 a-24 c show an arrangement analogous to the third variant ofthe airbag arrangement with anti-twist protection which has a tab whichcan be folded over onto the fastening clip.

FIG. 25 a shows a fourth variant of the airbag arrangement.

FIG. 25 b is a further illustration of the fourth variant of the airbagarrangement.

FIGS. 26 a and 26 b show an arrangement analogous to the fourth variantof the airbag arrangement with anti-twist protection which can be foldedover in some sections on to the head of the fastening clip.

FIG. 27 a shows schematically the plan view of a fastening tab andanti-twist protection which is sewn onto an airbag.

FIG. 27 b shows schematically the plan view of a fastening tab ontowhich anti-twist protection is sewn.

FIGS. 28 a and 28 b show views of a holder for holding a folded airbag.

FIG. 29 shows a modification of the holder for holding a folded airbag.

FIGS. 30 illustrates another variant of a holder for holding a foldedairbag.

FIG. 31 illustrates another variant of a holder for holding a foldedairbag.

FIG. 32 illustrates another variant of a holder for holding a foldedairbag.

DETAILED DESCRIPTION

It is an object to provide a fixing element which can be easily handledand installed.

According to a first aspect, an unlocking element is connected to asnap-on element of a fixing element in such a manner that it isaccessible from the outside and permits the snap-on-element to beunlocked and therefore the fixing element to be pulled out of theopening.

The fixing element can readily be released again from the opening in thesupport wall by the unlocking element being correspondingly actuated.The fixing element permits very simple handling, since it can be usedboth to fix parts to a support wall in a simple manner and also torelease them again in a simple manner.

By use of the unlocking element, the fixing element can be released fromthe support without it being damaged in the process. The fixing elementaccording to an embodiment can therefore be repeatedly used.

According to one embodiment the fixing element can be installed by apure “clipping operation”. Screws or the like are not required for theinstallation of the fixing element; no threads or other measures have tobe provided in the opening in the support wall either.

The unlocking element can be actuated in a particularly simple andtherefore advantageous manner if it reaches through the opening in thesupport wall and can therefore be actuated directly from the outside.

The snap-on element has a baseplate with two parallel or at leastapproximately parallel side edges, with a retaining plate being attachedin each case to each of these two side edges and being used to retainthe fixing element on the support wall.

The side of the retaining plate containing the unlocking elements has acontact section that bears against the rear side of the support wall.The contact section forms an inward step on the snap-on element. Thiscontact section can have a surface substantially parallel to the baseplate. In the case of a snap on element with two retaining plates, thecontact sections on the two retaining plates can be planar.

The distance of the retaining plates from each other can increase withincreasing distance from the baseplate, the distance between the sidewalls being greater at their end facing away from the baseplate than thedistance between the associated opening edges of the opening in thesupport wall. The snap-on element is therefore approximately U- orV-shaped in cross section, with the two retaining plates forming theside parts of the U or of the V.

The retaining plates can have a resilient design and can be pressedtogether in such a manner that, when the fixing element is introducedinto the opening in the support wall, the distance between the retainingplates is reduced by the effect of the opening edges of the opening insuch a manner that the distance between the retaining plates correspondsto the distance between the opening holes; the two retaining plates cantherefore be pushed through the opening in the support wall.

In the case of a snap-on element with two retaining plates, there aretwo unlocking elements of which one interacts with the one retainingplate and the other with the other retaining plate. The two retainingplates can therefore be actuated by the two unlocking elements, thusfacilitating unlocking of the fixing element.

The unlocking elements can be formed, for example, by tabs or angledparts which are attached to that end of the respective retaining platewhich faces away from the baseplate and extend beyond the first contactsection, or any other suitable mechanism. The unlocking elements can beconnected integrally to their respectively assigned retaining plate.

The unlocking elements are arranged on the retaining plates in such amanner that actuation of the unlocking elements can take place by theunlocking elements being pressed together in relation to each other.

The baseplate of the snap-on element can be of square or rectangulardesign, or at least of substantially square or substantially rectangulardesign. In this case, the baseplate has a further pair of side edgeswhich are in each case perpendicular to the side edges with theretaining plates originating therefrom, and which run parallel to eachanother. A connecting plate is arranged in each case on each of the twoside edges of this further pair of side edges. These connecting platescan serve, for example, to hold stop plates of the stop element alreadymentioned above.

The stop element has two stop plates of which one is connected to theone connecting plate and the other is connected to the other connectingplate. The connecting plates and their associated stop plates can ineach case be connected integrally to one another.

The stop elements have contact sections that bear against the outside ofthe support wall. The distance between the stop element surface and thebase plate is greater than the distance from the snap-on element surfaceto the base plate. The contact sections can have surfaces substantiallyparallel to the base plate.

The stop plates can have an angled design, so that they bear resilientlyagainst the outside of the support wall—i.e. on the outside of thesupport wall—when the fixing element is retained in place.

The angled stop plates can each have, for example, a partial plate whichruns parallel to the support wall and to the baseplate of the fixingelement, and a further partial plate which is angled in relation to theparallel partial plate. The partial plate, which is parallel to thebaseplate, serves to connect the angled partial plate to the associatedconnecting plate.

The fixing element can be, according to an embodiment, a single-piececlip, preferably of metal or plastic. The fixing element can be formed,for example, by a single-piece punched and bent part of metal.

The unlocking elements are designed in such a manner that they can bereleased without a special tool. Furthermore, the fixing element can bedesigned to be secure against rotation; this means that it cannot berotated in the opening in the support wall.

Furthermore, an embodiment includes an arrangement which has the fixingelement already described above and an airbag module which is connectedthereto and is fixed to or in a vehicle by the fixing element. Theairbag module can be, for example, a side airbag module.

In another embodiment, an installation tool is provided with which afixing element can be installed in a receiving opening arranged in aholding element. The installation tool comprises a guide shank forintroducing the fixing element into the receiving opening. In this case,the guide shank has a structure which prevents the guide shank frombeing released from the fixing element if the fixing element is notsecured in the receiving opening.

The installation tool can therefore only be pulled out of the fixingelement to be installed if the latter is fixedly connected to theholding element. This avoids the installation tool being removed fromthe fixing element if the latter is not yet or is not yet completelysecured in the receiving opening. It is therefore ensured that, with theinstallation tool, a fixing element is installed in such a manner thatthe latter is secured by its securing structures on the receivingopening and it is not, for example, merely other regions of the fixingelement which are jammed in the receiving opening.

The receiving opening is arranged in a holding element. The holdingelement here may be any desired part on which a further part is to befastened. For example, the holding element may be part of a vehicle bodyor another sheet-metal part.

A fixing element, for example for fastening an airbag to a vehicle part,has, as securing structures, latching hooks which can latch with theedge of a receiving opening. The latching hooks are arranged, forexample, at the ends of elastic latching arms. The latching arms can beconnected at one end to a closed end of the fixing element, which end isintroduced into a receiving opening during the fastening of the fixingelement.

When a fixing element of this type is installed, it is introduced intothe receiving opening until the latching hooks latch against the edge ofthe receiving opening. Incorrect installation could arise, for example,by the elastic arms of the fixing element becoming jammed with thereceiving opening before the latching hooks are correctly secured. Thefixing element would thereby already experience a certain amount ofgrip, which could falsely be considered to be the correct installationposition in particular if the fixing element is installed manually or ifit is installed using a conventional tool.

By contrast, with the installation tool, the latter cannot be removedfrom the fixing element if the fixing element has simply jammed in thereceiving opening. Removal, i.e. pulling of the installation tool out ofthe fixing element, is only possible if the fixing element is actuallycorrectly latched at its latching hooks to the receiving opening.

The fixing element which can be fastened to the installation toolaccording to an embodiment can be, as mentioned, an airbag clip forfastening an airbag or other parts of an airbag module. The holdingelement in which an airbag clip of this type is fastened is, forexample, part of a vehicle body or a part connected to the vehicle body.

Although a preferred use of the installation tool is the installation ofairbag clips for installing an airbag, the installation tool is notrestricted to this use and it can likewise be provided for the purposeof being able to use it to install other types of fixing elements. Theonly crucial factor is for the tool to be designed in such a manner thatit does not become released from the clip before the latter is correctlyinstalled.

In an advantageous manner, the guide shank of the installation tool hasa cut-out or a tapered portion. In this case, the cut-out or taperedportion is designed in such a manner that, when the fixing element isintroduced into the receiving opening with the aid of the installationtool, a section of the fixing element engages, before it is secured inthe receiving opening, in the cut-out or tapered portion and is onlyreleased again from the cut-out or from the tapered portion when thefixing element is secured.

In particular, the tapered portion or the cut-out can be designed insuch a manner that elastic arms of a fixing element, on which latchingelements are arranged, are pressed together when introduced into areceiving opening, so that the free ends of the clip arms engage in thecut-out or tapered portion of the guide shank. The guide shank cannottherefore be removed from the fixing element. Only when the fixingelement is introduced into the receiving opening to the extent such thatthe latching elements can latch in the receiving opening do the arms ofthe fixing element spread apart and release the guide shank of theinstallation tool.

In an exemplary embodiment, the installation tool has two stops whichare spaced apart from each other and are designed in such a manner thatthe fixing element is secured if the stops strike against the holdingelement. Simple and rapid installation of the fixing element istherefore made possible, since the fixing element is simply introducedby the installation tool into the receiving opening until the stopsstrike against the holding element.

At this instance, the fixing element latches in the receiving opening.In this case, the stops have approximately identical lengths and areshorter than the length of the guide shank by the fitting depth of thefixing element. The fitting depth of the fixing element is composedhere, firstly, of the thickness of the holding element and, secondly, ofthe distance of the closed end of the fixing element from its latchingelement. The fixing element is therefore latched in the receivingopening precisely at the instant at which the stops strike against theholding element.

The stops may be designed, for example, in the manner of a pin. However,it is also possible to provide other shapes which can be adapted, forinstance, to a certain configuration of the holding element.

A further function of the stops is to be prevent the fixing element frombeing introduced too far into the receiving opening, which wouldpossibly lead to the fixing element being twisted or pressed in tooseverely.

The stops can have feeling elements which generate a signal when thestops strike against the holding element. The signal is advantageouslyan optical, acoustic and/or electric signal. Furthermore, the signal canbe supplied to an evaluating device for evaluation and storage. By this,a striking of the stops against the holding element is clearlysignalled, for instance by sound or illumination of a light-emittingdiode, and also can be documented. For documentation purposes, thesignal generated by the feeling elements is transmitted to an evaluatingdevice and stored, for example, together with a date or a designation ofthe installation fixing element.

For operation of the feeling elements and for evaluation of the electricsignals generated by the feeling elements, an electronic switchingcircuit is advantageously arranged on the installation tool. Thisswitching circuit can be integrated, for example, in the installationtool.

A preferred arrangement of the guide shank makes provision for thelatter to be arranged centrally between two stops. In this case, the twostops may also be designed as a single piece; however, this is notabsolutely necessary. It is also possible for the stops and the guideshank to be connected to one another as a single piece.

When the stops are designed as a single piece, it is also possible, forexample, for an annular or hollow cylindrical stop to be provided. Inthis case, sections of the ring or hollow cylinder constitute thedifferent stops. Furthermore, it should be noted that, although oneembodiment provides precisely two stops, nevertheless variants of theinstallation tool having more than two stops and being able to beadapted, for example, to complicated shaped holding elements are alsopossible.

The stops and/or the guide shank may be formed from a metal.Furthermore, however, different materials may also be provided for thestops or the guide shank, for example, a plastics material.

Furthermore, the installation tool advantageously has a testingmechanism. These testing mechanisms serve to check the position of theinstalled fixing element with regard to the holding element. In thiscase, the testing mechanisms generate a signal as a function of theinstallation position of the fixing element. This signal mayadvantageously be an optical, acoustic or an electric signal.

Installation of the fixing element carried out by the installation toolcan be checked with these additionally arranged testing mechanisms. Inthis case, for instance, a distance meter can be provided as the testingmechanism and can be used to determine the distance of a closed end,which lies opposite the holding element, of the installed fixing elementfrom the holding element.

It can therefore be ascertained with the aid of the distance meterwhether the installed fixing element actually sits in the correctinstallation position or, for example, is only wedged in the fasteningopening but is not actually latched into place on the latching elementsin the receiving opening. In such a case, the fixing element would nothave been introduced into the receiving opening to a sufficient extent,and so the distance of the closed end of the fixing element would besmaller in comparison to a correctly installed fixing element.Consequently, by measuring the distance of the closed end of the fixingelement from the holding element, the installation of the fixing elementcan be checked.

Analogously, pressing the fixing element too far into the receivingopening could also be determined by the distance meter, since in thiscase the distance of the closed end of the fixing element from theholding element would be larger in comparison to the correctinstallation position.

Additionally, a handle element is advantageously provided on theinstallation tool and is connected to the stops and the guide shank.With a handle element of this type, the installation tool can be handledin a simple manner during the installation of the fixing element. Thehandle element can be connected here, for example, to a head part of theinstallation tool, on which the stops and the guide shank are in turnfastened.

In another aspect, an installation tool for securing a fixing element ina receiving opening is provided, the installation tool likewise having aguide shank for introducing the fixing element into the receivingopening. In addition, there are at least two stops which are spacedapart from each other and are designed and provided in such a mannerthat the fixing element is secured in the receiving opening as soon asthe stops strike against the holding element.

In this variant, the guide shank does not necessarily have a structurewhich prevents the installation tool from being pulled prematurely outof the fixing element before the latter is secured. The crucial factorin this variant of the installation tool is that there are at least twostops. The installation tool is brought up to the holding element as faras the stops. At the instant at which the stops strike against theholding element, the fixing element is secured in the receiving opening.

In yet another aspect, a testing tool is provided with which theinstallation of a fixing element fastened to the previously describedinstallation tool can be checked. In this case, the testing tool has atesting mechanism which serves to check the position of the fixingelement with regard to the holding element in which the fixing elementis installed.

With the testing tool, a device is provided which permits retrospectivechecking of already installed fixing elements. The clip fastening ofcomponents, for example of an airbag or parts of an airbag module, cantherefore be checked in a simple manner. The position of the fixingelement is checked here with regard to the holding element, that is, forexample the orientation or the distance of the fixing element or of acomponent of the fixing element in relation to the holding element isdetermined. The result of this determination can then be compared, forexample, with the results which arise if the fixing element is installedcorrectly.

In principle, the checking by the testing mechanism can take place suchthat it is merely ascertained whether installation is correct or not.However, it can also be provided that the testing mechanism determinesand indicate the type and/or the degree of the erroneous installation.

The testing tool can have two stops which are spaced apart from eachother and are brought into contact with the holding element during thetesting of the installation. The testing tool can be brought by use ofthe stops into a reproducible reference position. Starting from thisreference position, the result of the testing operation can be comparedwith reference results. With reference to this comparison, it can thenbe decided whether the tested fixing element is in the correctinstallation position. For example, the test result can be compared withthe test result of a fixing element which is known to be correctlyinstalled.

The testing mechanisms advantageously have a testing shank which can beintroduced into the installed fixing element. Furthermore, the testingadvantageously additionally have feeling elements which are arranged onthe testing shank and on the stops and generate a signal when strikingthe testing shank or the stops.

In this case, the testing shank can be longer than the stops by theamount of fitting depth of the fixing element. As a result, the correctposition of the installed fixing element can be checked by monitoringthe electric signals generated by the feeling elements. The testingshank is introduced into the installed fixing element until its feelingelement is activated. If the fixing element is installed correctly, atthe same time as the feeling element on the testing shank is activated,the feeling elements on the stops are also activated. If, for example,only the feeling element of the testing shank is activated or, inaddition, only a feeling element of one of the distance prongs, theposition of the installed fixing element is incorrect.

In a further preferred refinement, the testing mechanisms alternativelyor additionally comprise a distance meter with which the distance of theclosed end, which lies opposite the holding element, of the installedfixing element from the holding element can be determined. In this case,the distance meter can comprise, for example, a pin mounted in a spring.The spring exerts a restoring force on the pin. To check the position ofthe installed fixing element, the pin is introduced into the installedfixing element, so that it butts against the closed end of the fixingelement.

The testing tool is now brought further up to the holding element untila reference position is reached. This reference position can be achievedin an advantageous manner when stops arranged on the testing tool strikeagainst the holding element. In this embodiment, the distance meter thendetermines the distance of the closed end of the installed fixingelement from the stops. It can then be determined from this, withaccount being taken of the fitting depth of a correctly installed fixingelement, whether the fixing element is correctly installed or, forexample, has been pressed in too far or not sufficiently far enough intothe receiving opening.

A further preferred variant of the testing mechanism makes provision forthe latter to comprise an optical sensor with which the orientation ofthe closed end, which lies opposite the holding element, of theinstalled fixing element relative to the holding element can bedetermined. In particular, the optical sensor can have a light-emittingand a light-receiving element. In this case, a suitable light-emittingelement is, for example, a light-emitting diode or a laser.

A light-receiving element may be, for example, a photo diode. Theseelements can be integrated in the testing tool or can be arranged on asurface of a head part of the testing tool. A testing tool with anoptical sensor can also have stops with which the testing tool can bebrought into a reference position in relation to the fixing element tobe tested. In this case, the testing tool is brought up to the holdingelement in which the fixing element to be tested is arranged until thestops strike against the holding element.

The optical sensor is now designed, for example, in such a manner thatthe light emanating from the light-emitting element is reflected at theclosed end of the installed fixing element. If the installed fixingelement is a correctly installed fixing element, the light is directedvirtually entirely to the light-receiving element. If, however, thefixing element is not correctly installed, for example is sloping or isnot deep enough in the receiving opening, only some of the light or evenno light is directed to the light-receiving element.

Consequently, by evaluating the signal generated by the light-receivingelement, it can be decided whether the fixing element is installed inthe correct position. In addition, a more extensive analysis of thelight received by the light-receiving element or of the electric signalgenerated in response to it can be used to determine the degree of theerroneous installation or the type of erroneous installation.

In a preferred manner, the testing mechanism generates a signal as afunction of the position of the installed fixing element. The signal mayadvantageously be an optical, acoustic or an electric signal. Forexample, the correct or else the incorrect installation is thereforeindicated by a corresponding optical or acoustic signal. Furthermore, anelectric signal can be generated which indicates, for example, whetherthe fixing element is correctly or incorrectly installed. The electricsignal can in particular be additionally transmitted to an evaluationunit in which it can be stored and evaluated. The testing operation canbe documented by storing these electric signals. The evaluation unit canbe arranged externally. Alternatively, it is also possible to integratethis evaluation unit together with an electronic switching circuit,which serves to operate the testing mechanism, in the testing tool, forexample as an IC.

It is pointed out that the installation and the testing tool areconfigured for installing and testing different kinds of fixingelements. The installation and the testing tool can be used with afixing element described above in connection with the first aspect.

In a further aspect, an airbag arrangement is provided for a vehiclerestraint system, the airbag arrangement having at least one inflatableairbag and at least one fixing element for fastening the airbag to avehicle body. The fixing element reaches through a fastening opening ofthe airbag. The airbag arrangement furthermore has anti-twist protectionwhich is distinct from the airbag and prevents the fixing element fromtwisting in the fastening opening before the airbag is fastened to thevehicle body.

With the anti-twist protection provided, it is avoided that fixingelements which are prefitted in the fastening openings of the airbagtwist therein about their own axis before the actual installation of theairbag. This permits particularly efficient installation of the airbagon the vehicle body, since the prefitted fixing elements are allarranged in the correct installation position in the fastening openingsof the airbag. If fixing elements are prefitted without anti-twistprotection, twisted fixing elements, possibly before the installation,have firstly to be rotated into the correct installation position whichconstitutes an additional working step which is omitted by anembodiment.

It is pointed out that the airbag can be fastened indirectly or directlyto a vehicle body via the fixing element. In particular, provision maybe made for the airbag to be fitted on a holding element which in turnis connected to the vehicle body. In this case, the holding element hasreceiving openings into which latching elements of the fixing elementlatch.

At its one end, a fixing element usually has latching elements forlatching in a receiving opening. In addition, on the side opposite thelatching elements, there is a widened head which simplifies the pressingof the fixing element into a receiving opening. In addition, the widenedhead clamps the airbag to the vehicle body or to a holding elementconnected to the vehicle body and thereby fixes it in the installationposition.

The anti-twist protection can be designed in different ways, forexample, as a device which locks the head of the fixing element in theinstallation position. Furthermore, it is possible for the anti-twistprotection to act on the latching elements of the fixing element and, asa result a twisting of the fixing element in the fastening opening isprevented. It is also possible that the anti-twist protection acts on asection of the fixing element that is situated between the latchingelements and the clip head and, as a result, the fixing element is fixedin a certain position.

In one embodiment, the anti-twist protection has an opening. Theanti-twist protection is arranged in such a manner that the opening isaligned with the fastening opening of the airbag. In this refinement,the fixing element therefore reaches both through the fastening openingarranged in the airbag and through the opening of the anti-twistprotection. The opening of the anti-twist protection is designed in sucha manner that the fixing element passed through it cannot be twisted inthe opening, so that the clip is held in position by the anti-twistprotection and is prevented from twisting in the fastening opening ofthe airbag.

For this purpose, the opening of the anti-twist protection is designedin a sufficiently dimensionally stable manner such that the clip doesnot unintentionally twist, for example, during transportation or otherhandling of the prefitted airbag arrangement. For this purpose, the edgeof the opening may be reinforced, for example by an additional material.

For this purpose, the opening has a shape corresponding to the shape ofthe fixing element, for example, to the cross section of that section ofthe fixing element which reaches through the opening. In particular, theopening can be of rectangular design preventing twisting of fixingelements which reach through the opening of the anti-twist protectionwith a section which likewise has an approximately rectangular crosssection. This constitutes a standard embodiment of a fixing element. Thedimensions of the rectangular opening in the anti-twist protection areselected in such a manner that, although the clip can be passed throughthe opening, it cannot be rotated therein.

It goes without saying that the opening in the anti-twist protectiondoes not necessarily have to be rectangular. Of importance is that thetype of opening prevents a twisting of the fixing element in it. Forthis purpose, the opening is coordinated with the design of the fixingelement and may, for example, also be of triangular or hexagonal designor designed in the form of another polygon.

The anti-twist protection is advantageously connected to the airbag,thus simplifying the preassembly of fixing element, airbag andanti-twist protection. A connection of the anti-twist protection to theairbag is possible in particular by it being sewn onto the airbag by thecircumferential seam thereof. The circumferential seam of an airbagconnects material layers of the airbag and runs along the circumferenceof the airbag blank.

Of course, it is also possible for the anti-twist protection to be sewnonto the airbag with the aid of a separate seam. In order to produce aconnection of anti-twist protection and airbag by sewing, it is providedin particular that the anti-twist protection is formed from a sheet-likematerial. This may be, for example a textile fabric or a plastic.Further suitable materials include cardboard or paper.

The airbag of the airbag arrangement has a fastening tab in which thefastening opening for the passage of the fixing element is arranged.This corresponds to a conventional configuration of an airbag. Theanti-twist protection is advantageously connected to this fastening tabof the airbag. In this case, the anti-twist protection can be sewn oradhesively bonded at least in some sections to the fastening tab.

Analogously to the airbag, the fastening tab usually has materiallayers. In this case, the anti-twist protection is advantageouslyarranged at least in some sections between two material layers of thefastening tab. The fastening tab is usually provided directly in theairbag blank.

In one embodiment, the fastening tab has a pocket which is formed bymaterial layers of the fastening tab. At least some sections of theanti-twist protection are pushed into this pocket. In particular, inthis connection, the anti-twist protection can have an opening throughwhich the fixing element is guided and which prevents twisting of thesame in the opening. In this case, the anti-twist protection is pushedinto the pocket of the fastening tab until the opening of the anti-twistprotection is aligned with the fastening opening of the airbag.

A reinforced fastening tab is formed by a tab being formed on theairbag, the free end of which tab is folded over. A preferred variant ofarranging the anti-twist protection on the airbag is to arrange theanti-twist protection between the folded-over and the not folded-oversection of this tab. A fixing of the anti-twist protection in thisposition can take place in turn by sewing it or adhesively bonding it tothe sections of the tab.

In a particularly advantageous refinement, the anti-twist protection hasa section which can be folded over onto the head of the fixing element.This constitutes a particular advantage, since, with the aid of thesection which can be folded over, the fixing element can be pressed moreeasily into a receiving opening, for example, of a vehicle body. This isparticularly important, since the pressing of the fixing elements intothe receiving openings frequently takes place by hand. By folding over asection of the anti-twist protection on to the head of the fixingelement, the pressing in of the fixing element by hand is facilitatedand protects the installation person from injury. In particular, in thecase of fixing elements formed from metal, the fixing element has sharpedges which may result in injury when pressing the clip in by hand, thisbeing avoided by folding over the section of the anti-twist protectionon to the head of the clip before installation.

In particular, it can be provided that if the anti-twist protection isarranged between material layers of the fastening tab, a section of theanti-twist protection protrudes out of the fastening tab, with it beingpossible for this section to then be folded over onto the head of thefixing element.

Another embodiment comprises anti-twist protection which is additionallydesigned as a holder for holding the folded airbag. By use of the designas a holder, the folded airbag (“package”) can be held better inposition in the fitted state. The anti-twist protection in this case isformed in particular from a dimensionally stable material, for example,from a metal or a plastic. In particular, a plastic injection-mouldedpart is suitable.

The anti-twist protection designed as a holder can have two parts whichare connected rotatably to each other at one end in each case and thefree ends of which are folded onto each other and connected in such amanner that the folded airbag is embraced by the two parts. The twoparts of the anti-twist protection therefore form a holder for thefolded airbag. The function of preventing twisting of the fixing elementis provided, for example, by structures additionally arranged on thesetwo parts. In particular, on one part an opening can be provided throughwhich the fixing element is guided and which is designed in such amanner that the fixing element cannot twist in it.

In an advantageous manner the free ends of the two parts are connectedto each other via a clip connection. For this purpose, the two partshave, for example, mutually corresponding connecting structures.

The anti-twist protection is formed from a plastic or a metal. Asalready mentioned, in this case, anti-twist protection which is toadditionally serve as a holder for a folded airbag is formed from adimensionally stable material. By contrast, anti-twist protection whichis to be connected fixedly to the airbag can be formed from a sheet-likematerial, for example from a textile fabric. This in particular alsopermits the anti-twist protection to be sewn onto the airbag.

In a further embodiment, a holder is provided for holding a foldedairbag. The holder has an opening for the passage of a fixing elementvia which the holder and an airbag held in the holder can be fastened toa vehicle body. In this case, the opening is designed in such a mannerthat twisting of a fixing element guided through the fastening openingis prevented. With this holder, preassembly of an airbag package ispossible which can then be fitted on the vehicle body in a particularlyefficient manner, since prefitted fixing elements cannot twist in theopening of the holder.

For the preassembly, a fixing element is guided both through the openingin the holder that serves as the anti-twist protection and also througha fastening opening arranged in the airbag. An airbag package prefittedin the holder is produced by simple pressing of the fixing elements intocorrespondingly provided receiving openings in the vehicle body or in apart connected to the vehicle body.

The holder is formed in a dimensionally stable manner from a plastic ora metal. Furthermore, a tab is advantageously provided which can befolded over onto the head of a fixing element guided through theopening. This provides protection for the fingers of the installationperson from injuries when pressing in the fixing element. The tab can beconnected to the holder, for example, via a hinge. In the case ofplastic parts, in particular made from a plastic injection moulding, thetab may also be formed integrally with the holder.

It is pointed out that the fixing element of the airbag arrangement canbe of any suited kind. The fixing element is a fixing element asdescribed above in connection with the first aspect.

FIGS. 1 and 2 illustrate a fixing element in the form of a fixing clip2. The fixing element 2 has a stop element 20 and a snap-on element 30.The stop element 20 and the snap-on element 30 serve to fix the fixingelement 2 to a support wall 40 which is illustrated schematically inFIG. 3.

It can be seen in FIG. 3 that the fixing element 2, for the purpose ofbeing fixed to the support wall 40, is inserted through an opening 50 inthe support wall 40. In the process, the snap-on element 30 reachesthrough the opening 50 in the support wall and locks the fixing element2 to the support wall 40 as soon as it has been inserted to a sufficientdepth.

In the locked state, the stop element 20 bears against the “outside” 60of the support wall 40 at the surface 27 of the second contact section23; the “outside” is understood below as meaning that side of thesupport wall 40 to which a part which is to be fixed, for example anairbag or an airbag module, is attached by the fixing element 2. On theother side 70 of the support wall—called rear side 70 for shortbelow—the snap-on element 30 bears against the support wall 40 at thesurface 37 of the first contact section 33 in such a manner that it isnot possible to pull the fixing element 2 out of the opening 50 or fromthe support wall 40.

The fixing of a part to be fixed to the support wall 40 by the fixingelement described is illustrated schematically in FIG. 4. The part to befixed is identified by the reference number 80 and rests on the frontside 60 of the support wall 40 and is clamped to the support wall 40 bythe stop element 20.

As can be seen in FIGS. 1 to 4, the snap-on element 30 has a baseplate90 which is of substantially rectangular design. Two retaining plates120 and 130 are molded integrally onto two parallel side edges 100 and110 of the baseplate 90. The two retaining plates 120 and 130 are at adistance from each other which increases with increasing distance of theretaining plates 120 and 130 from the baseplate 90. As viewed in crosssection, the baseplate 90 in the two locking plates 120 and 130 aretherefore approximately V-shaped. The upper distance A between the tworetaining plates 120 and 130 is dimensioned in such a manner that it isgreater than the width B of the opening 50 in the support wall 40. Thus,A>B.

The cross-sectional surface of the baseplate 90 is selected in such amanner that it is smaller than or at maximum the same size as theopening 50 in the support wall 40. It is therefore possible first of allto readily insert the fixing element 2 together with the baseplate 90into the opening 50. Upon such an insertion of the fixing element 2 intothe opening 50, the two retaining plates 120 and 130 will butt againstthe two opening edges 160 and 170, so that the two retaining plates 120and 130, which are held resiliently or elastically by the baseplate 90,are bent together while the fixing element 2 is introduced into theopening 50.

As soon as a predetermined end position is reached, in which the tworetaining plates 120 and 130 have passed completely through the opening50 in the support wall 40, the two retaining plates 120 and 130 willsnap apart and therefore cause locking of the fixing element 2 in theopening 50. The two retaining plates 120 and 130 therefore form asnap-on element and, owing to their distance A from each other, preventthe fixing element 2 from being pulled out of the opening 50.

While the fixing of the fixing element 2 on the rear side 70 of thesupport wall 40 is by the snap-on element 30, the locking of the fixingelement 2 on the front side 60 of the support wall 40 is brought aboutby the stop element 20. For this purpose, the stop element 20 has twostop plates 180 and 190 which, for the locking of the fixing element 2,rest resiliently on the support wall 40 at the surface 27 of the secondcontact section 23.

In this embodiment, in order to bring about this resilient resting onthe support wall 40, the two stop plates 180 and 190 are in each case ofangled design. The two stop plates each have a parallel partial plate200 and 210 running essentially parallel to the baseplate 90 of thefixing element 2 and parallel to the support wall 40. Respective angledpartial plates 220 and 230 are molded onto the two parallel partialplates 200 and 210, to be precise, at a predetermined angle. This angleis selected in such a manner that the two angled partial plates 220 and230 are oriented in the direction of the support wall 40 and of thebaseplate 90, respectively. If the fixing element 2 is now inserted intothe opening 50, then the two angled partial plates 220 and 230 arepushed against the front side 60 of the support wall 40 and deflectedresiliently until the two retaining plates 120 and 130 are guidedcompletely through the opening 50, snap apart and therefore lock thefixing element 2. The two angled partial plates 220 and 230 thereforebring about a fixed bearing of the fixing element 2 against the supportwall 40, thus preventing the fixing element 2 on the support wall 40from rattling.

It can readily be seen in particular in FIGS. 1 and 2 that the twoangled partial plates 220 and 230 are respectively connected to aconnecting plate 240 and 241 by the two parallel partial plates 200 and210. In addition, the two connecting plates 240 and 241 are in each caseconnected to the baseplate 90, to be precise, to parallel side edges 242and 243 of the baseplate 90.

As can also be seen in FIGS. 1 to 3, a respective unlocking element inthe form of a tab or an unlocking bracket 250 or 260 is molded onto thetwo retaining plates 120 and 130. The distance from the baseplate 90 tothe unlocking elements 250 and 260 is greater than the distance from thebaseplate 90 to the surface 27 of the second contact section 23. The twounlocking brackets extend in each case from that end of the tworetaining plates 120 and 130 which faces away from the baseplate 90through the opening 50 on the support wall 40 to the front side 60 ofthe support wall and are therefore immediately accessible from theoutside. By pressing the two unlocking elements 250 and 260 together—forexample by hand or with a standard pair of pliers—the two retainingplates 120 and 130 can be pressed together, so that they are then atjust a distance which corresponds to the distance B between the twoopening edges 160 and 170 of the opening 50. It is therefore possible topull the fixing element 2 out of the opening 50 and to remove the fixingelement from the support wall.

It can be seen in conjunction with FIG. 4 that, in order to fix the part80, the latter has a hole 300 through which the fixing element 2 iscompletely passed by its snap-on element 30. The part 80 is thereforeheld by the two stop plates 180 and 190. The fixing of the part 80 tothe support wall 40 by the fixing element 2 is shown once again indetail in a section in FIG. 5 and in a plan view in FIG. 6.

FIGS. 7 and 8 show the unlocking of the fixing element 2 by pressingtogether the two unlocking elements 250 and 260. The two arrows 310 and320 indicate how force has to be exerted on the two unlocking elements250 and 260 in order to arrive at them being unlocked. The fixingelement 2 is shown in FIG. 8 in its unlocked position.

In conjunction with FIGS. 9 to 13, it will now be explained how anairbag of an airbag module or the entire airbag module can be fixed to asupport, for example to a vehicle body, with the fixing element 2. Theairbag is therefore the “part to be fixed” which is identified by thereference number 80 according to FIG. 4.

For the fixing, the airbag 80 has a tab 400 with a fixing hole 300through which the fixing element 2 is partially pushed. The size of thefixing hole 300 is selected in such a manner that only the snap-onelement 30 of the fixing element 2 can be passed through whereas thestop element 20 is too large and therefore cannot pass through theopening hole 400. FIGS. 10 and 11 in particular show this in detail.

Furthermore, it can be seen in FIG. 11 and 12 that the two stop plates180 and 190 can be used for further fixing of the airbag 80 by the twostop plates 180 and 190 being inserted into an airbag covering through aslot 410.

FIG. 12 shows the airbag 80 after the fixing element 2 has been passedthrough the opening 300 and has been “hung” in the covering of theairbag module by the stop plates 180 and 190. FIG. 13 shows a differentview of the resulting arrangement comprising the fixing element 2 andthe airbag 80.

The resulting arrangement shown in FIGS. 12 and 13 can now be fixedlylatched to the support wall 40 by the opening 50 (cf. FIGS. 3 to 8); thesupport wall 40 can be, for example, a motor vehicle body.

FIG. 14 shows an installation tool 1 during the installation of a fixingelement in the form of a fastening clip 2 in a receiving opening 31 of asheet-metal part 3. In the illustration of FIG. 14, the fastening clip 2is already secured in the receiving opening 31. The fastening clip 2has, for fastening purposes, bendable arms 23 a, 23 b which areconnected to each other via the closed end 22. Latching hooks 21 whichengage behind part of the sheet-metal part 3 and therefore latch to thereceiving opening 31 are situated on the free ends of the fastening arms23 a, 23 b.

The installation tool 1 has a head 11 on which a guide prong 12 isarranged centrally as the guide shank and two stop prongs 13 arearranged in the outer region as stops. The head 11 of the installationtool 1 is connected to a handle element 14 for handling the installationtool 1.

The guide prong 12 serves to introduce a fastening clip into a receivingopening. At its end connected to the head 11 of the installation tool 1,it has a section 121 which is of conical design and facilitates theintroduction of the guide prong into the fastening clip. A taperedportion 122 adjoins the conical section 121. The tapered portion 122 isdesigned in such a manner that the latching hooks 21 of the fasteningclip engage in the tapered portion 122 before the fastening clip 2 issecured in the receiving opening 21.

As a result, a connection of the fastening clip 2 to the installationtool 1 is produced preventing the guide prong from sliding out of thefastening clip 2 before the fastening clip 2 is secured in thesheet-metal part 3. The state in which the latching hooks 21 of thefastening clip 2 engage in the tapered portion 122 is not shown in FIG.14, since the fastening clip 2 is already secured in the receivingopening 31. In this case, the arms 23 a, 23 b are expanded to an extentsuch that the latching hooks 21 no longer engage in the tapered portion122 and the guide prong 12 of the installation tool 1 can be pulled backout of the fastening clip. The situation before the fastening clip issecured in the receiving opening is illustrated in FIG. 15 a.

The outer end 123 of the guide prong 12 is of flat design, so that thefastening clip 2 can be placed conclusively by its closed end 22 ontothe guide prong 12. Once placed onto the guide prong 12 to this extent,the fastening clip 2 is introduced into the receiving opening 31 untilthe stop prongs 13 of the installation tool 1 strike against thesheet-metal part.

In this case, the length of the stop prongs 13 is shortened incomparison to the length of the guide prong 12 by the fitting depth ofthe fastening clip 2. The fitting depth is composed here of thethickness of the sheet-metal part 3 and the distance of the latchinghooks 21 from the closed end 22 of the fastening clip 2. The securingposition of the fastening clip 2 is therefore achieved preciselywhenever the stop prongs 13 are in contact with the sheet-metal part 3.If appropriate, the length of the guide prong 12 can be selected to besomewhat larger, so that, when the stop prongs strike against thesheet-metal part 3, the fastening clip 2 is always introduced to asufficient depth into the receiving opening 31. However, the length ofthe guide prong must not be selected to be too large, since otherwisethe fastening clip would be introduced too far into the receivingopening and would possibly be twisted.

The distance prongs 13 have feeling elements 131 which register astriking of the stop prongs 13. The feeling pins 131 are connected inthe exemplary embodiment shown in FIG. 14 to switches 132 of anelectronic switching circuit 133 which is integrated in the head 11 ofthe installation tool. During striking of the stop prongs 13, theswitches 132 close the electric switching circuit 133. The closing ofthe switching circuit 133 causes an optical display by a lamp orlight-emitting diode 134. The feeling elements can be designed here insuch a manner that they are activated directly when they make contact.Alternatively, it is possible that, for activation, they first have tobe pressed in by a certain length.

Furthermore, there is an external evaluation unit 4 to which an electricsignal generated during the striking of the stop prongs 13 istransmitted. In this case, the evaluation unit 4 is designed in such amanner that it emits an acoustic signal (via the loudspeaker 41) as afunction of the electric signal transmitted.

In addition, the evaluating device has a recording unit 42 in which theelectric signal transmitted by the electric switching circuit 133 isstored. In particular, whether or by which of the two feelers 131 anelectric signal has been generated is stored. In addition, the time ofthe generation of the electric signal or, for example, a recognition ofthe fastening clip together with the information transmitted by theelectric switching circuit 133 can be stored in order to document theinstallation of the fastening clip 2.

FIGS. 15 a and 15 b show the operation when introducing a fastening clip2 into a receiving opening 31 with an installation tool 1 according to afurther embodiment. In a similar manner to the installation tool of FIG.14, the installation tool 1 has a forked head 11 on which a guide prong12 is arranged centrally and two outer stop prongs 13 are arranged. Theinstallation tool 1 likewise has a handle element 14 for guiding theinstallation tool 1.

A fastening clip 2 is placed onto the outer end 123 of the guide prong12. The fastening clip 2 again has latching hooks 21 which engage in atapered portion 122 of the guide prong 12. This prevents the guide prong12 from being pulled out of the fastening clip 2.

FIG. 15 a shows the situation directly after the fastening clip 2 hasbeen introduced by the installation tool 1 into the securing position inthe receiving opening 31 of a sheet-metal part 3. As the fastening clip2 is passed through the receiving opening 31, the side arms 23 a, 23 bof the fastening clip 2 are pressed together by the edges of thereceiving opening 31, so that the latching hooks 21 remain in engagementwith the tapered portion 122 of the guide prong 12. Only when thefastening clip 2 is introduced into the receiving opening 31 until thelatching hooks 21 have passed through the opening 31 and engage behindthe latter can the side arms 23 a, 23 b of the fastening clip 2 bendapart, as a result of which the latching hooks 21 are released from thetapered portion 122 of the guide prong 12 and are secured in thereceiving opening 31.

The situation in which the latching hooks 21 of the fastening clip 2 arepassed through the receiving opening 31 of the sheet-metal part 3 untilthey latch with the receiving opening 31 is shown in FIG. 15 b. In thiscase, the edge of the receiving opening 31 engages in a curvature 211 ofthe latching hooks 21, thus producing a clip connection between thefastening clip 2 and the sheet-metal part 3. In this position, in whichthe fastening clip 2 is secured to the sheet-metal part 3, the arms 23a, 23 b of the fastening clip 2 are bent apart until they no longerengage in a tapered portion 122 of the guide prong 12, with the resultthat the latter can be pulled back out of the fastening clip 2.

FIG. 16 illustrates an embodiment of the testing tool for testing theinstallation of a fastening clip. Analogously to the embodiment of theinstallation tool of the preceding figures, a testing tool 10 has a head11 on which outer stop prongs 13 are arranged which each have a feelingelement 131 which registers the striking of the particular stop prongagainst the sheet-metal part 3. Centrally with respect to the latter,however, instead of a guide prong there is a testing shank 101 which,when testing the position of an installed fastening clip, is introducedinto the latter. The testing shank 101 is of conical design, whichfacilitates the introduction of the testing shank into the fasteningclip during the testing operation.

At its outer end, the testing shank 101 likewise has a feeling element124 which detects when the testing shank 101 makes contact. With thefeeling element 124 of the testing shank 101, a striking of the outerend of the testing shank 101 against the inside of the closed end of theinstalled clip 2 is registered. The fitting position of the fasteningclip 2 can therefore be determined by the testing tool 1: in a similarmanner to the exemplary embodiment of the installation tool according toFIG. 14, the lengths of the stop prongs 13 are shortened with respect tothe length of the testing shank 101 by the fitting depth of thefastening clip 2.

The result of this is that, when the testing shank 101 is introducedinto a correctly installed fastening clip 2, both the feeling element124 of the testing shank 101 and the feeling elements 131 of the twoouter stop prongs 13 are activated, since the stop prongs 13 and thetesting shank 101 strike against the fastening clip 2 and against thesheet-metal part 3, respectively. If a fastening clip 2 is not correctlyinstalled, for example in the case of a clip which is arranged in asloping manner in the receiving opening 31 or is not introducedsufficiently far enough into the latter, not all of the feeling elementswould respond at the same time.

Like the installation tool of FIG. 14, the testing tool 1 has anelectronic switching circuit 133 which is integrated in the head 11 ofthe testing tool 1 and generates an electric signal depending on theposition of the feeling elements 131, 124. The electric signal activatesa lamp element 134, so that, when all of the feeling elements 131, 124are activated simultaneously, the said electric signal is displayedoptically. Furthermore, the electric signal generated by the switchingcircuit 131 as a function of the activation of the feeling elements 131,124 can be transmitted to an external evaluation unit 4.

This evaluation unit 4 corresponds to the evaluation unit illustrated inFIG. 14 and likewise has a loudspeaker 41 for the acoustical conversionof the electric signal received, and a storage unit 42. The electricsignal of the switching circuit 133 can be stored in the storage unit42, for example, together with the time at which it was generated. As aresult, the testing operation carried out by the testing tool 1 can bedocumented. Provision may be made for it to be registered whether orwhich of the feeling elements 131, 124 were activated during the testingoperation. It is therefore stored in the evaluation unit whether thetested fastening clip 2 was correctly installed. In addition, theinformation transmitted from the electric switching circuit 133 to theevaluation unit 4 can be evaluated to the effect that it can bedetermined which of the feeling elements 131, 124 arranged wereactivated. As a result, if appropriate, it would only be possible toascertain that there is an erroneous installation but also it would bepossible to determine and document the type of erroneous installation.

FIG. 17 a shows a further embodiment of the testing tool. A testing tool10 has a testing pin 5 which is mounted at one end in a spring 51 whichexerts a restoring force on the testing pin 5. The testing pin 5 and thespring 51 are parts of a distance meter. The spring 51 is arranged in anopening 1101 of a head 11 of the testing tool 10. The testing pin 5protrudes with one end into the opening 1101 and is connected there tothe spring 51.

The testing tool 10 has stop prongs 13 which are brought into contactwith the sheet-metal part 3 in order to test the installation of afastening clip 2 mounted in a sheet-metal part 3. As a result, thetesting tool 10 is brought into a defined testing position.

As the testing tool approaches the sheet-metal part 3, the testing pin 5is introduced into the fastening clip 2 through the open side thereof.The outer end 52 of the testing pin 5 butts against the inside of theclosed end 22 of the fastening clip 2. As a result, the testing pin 5 ismoved in the direction of the testing tool 10 and compresses the spring51 connected to it.

That end of the testing pin 5 which is mounted in the spring 51 isconnected to a registering unit 6 which registers and displays thedisplacement of the testing pin 5. The distance meter is therefore usedto determine a displacement of the testing pin 5 relative to the stopprongs 13. With recognition of this displacement, it is in turn possibleto determine the actual fitting depth of the fastening clip 2.

For example, the testing pin 5 can be set in the zero state, i.e. beforethe testing operation, such that the testing pin 5 protrudes over thestop prongs 13 with a length which is larger than the desired fittingdepth of a fastening clip. This would be the zero state of the testingtool 10. The registering unit 6 could be calibrated with reference to acorrectly installed fastening clip; for example such that a zero isdisplayed when measuring a correctly installed fastening clip.

A fastening clip introduced, for example, in a sloping manner or not farenough into the receiving opening 31 of the sheet-metal part 3 wouldlead to the testing pin 5 being pressed further into the spring 51during testing of the installation with the testing tool 10, which wouldbe displayed and registered by the registering unit 6.

Furthermore, the registering unit 6 can generate an electric signal as afunction of the position of the testing pin 5, which signal istransmitted to an external evaluating device 4. This evaluation unit 4corresponds to the evaluation units already shown in FIGS. 14 and 16 andtherefore will not be explained in more detail at this point.

FIG. 17 b shows a third variant of a testing tool. This variant is basedon the optical testing of the installation of a fastening clip 2. Inthis case, a light-emitting diode 7 and a photo diode 71 which togetherform an optical sensor element are arranged on a head 11 of the testingtool 10. In addition, the head 11 of the testing tool 10 has distanceprongs 13 which are brought into contact with the sheet-metal part 3, inwhich the fastening clip 2 is arranged, in order to test theinstallation position of the fastening clip 2. This constitutes thereference position of the testing tool 10 for testing the installationposition of the fastening clip 2.

If a fastening clip 2 is installed correctly, the light emitted by thelight-emitting diode 7 is reflected on the inside of a closed end 22 ofthe installed fastening clip 2. This reflection takes place in such amanner that the reflected light is received by the photo diode 71, whichis arranged at a distance from the light-emitting diode 7. If thefitting position of the fastening clip 2 to be tested deviates from thedesired position, the light emitted by the light-emitting diode 7 is nolonger reflected exactly in the direction of the photo diode 71.

Depending on the degree of erroneous installation, only some of thereflected light reaches the photo diode 71 or it no longer reaches thephoto diode 71 at all. Therefore, by evaluation of the photo diodesignal, it can be determined whether the fastening clip 2 is installedcorrectly in the receiving opening 31 of the sheet-metal part 3. Thesignal of the photo diode 71 can be transmitted to an evaluation unit 4in a manner analogous to the exemplary embodiment of FIG. 17 a. Theevaluation unit 4 corresponds to the evaluation unit already discussedin conjunction with FIGS. 14 and 16, and so it is not described moreprecisely at this point. Suitable evaluation of the quantity of lightemitted by the photo diode also makes it possible, if appropriate, todetermine the degree or type of erroneous installation

FIGS. 18 a and 18 b show further modifications of the installation tool.In this case, the arrangement of the installation tools showncorresponds essentially to the embodiment of FIG. 14. An installationtool 1 has a head 11 on which outer distance prongs 13 and, centrallywith respect to the latter, a guide prong 12 are arranged. Furthermore,a handle element 14 is provided for guiding the installation tool 1. Inthe embodiment of FIG. 18 a, the handle element 14 is formedcylindrically from a metal. By contrast, the handle element 14 of FIG.18 b is formed from wood.

FIG. 19 a shows a detail from an airbag 1000. The airbag 1000 has afastening tab 1100 in which a fastening opening 1200 through which afixing element in the form of a fastening clip 2 reaches is arranged.The fastening clip 2 has a head 2100 which is widened in relation tothat section of the fastening clip 2 which is guided through thefastening opening 1200. In particular, the fastening clip can be theclip shown in FIG. 1. At its end facing away from the head 2100, thefastening clip 2 has latching elements (not illustrated) which latch inan opening of a holding element 3000. By latching the fastening clip 2to a holding element 3000, the airbag 1000 is fixed to the holdingelement 3000. The holding element can constitute, for example a sectionof a vehicle body or a separate part which is connected to a vehiclebody.

The airbag 1000 and therefore also the fastening tab 1100 has two layersof a textile material which are connected to each other along acircumferential seam 1300. In the region of the fastening tab 1100,anti-twist protection 4000 is arranged between the airbag layers. Thesaid anti-twist protection is concealed in the illustration of FIG. 19 aby the uppermost airbag layer. The anti-twist protection 4000 isconnected to the fastening tab 1100 via two seams 1400.

FIG. 19 b shows the components of the airbag arrangement of FIG. 19 a,with it also being possible to see the anti-twist protection 4000. Theanti-twist protection 4000 has a rectangular opening 4001 through whichthe fastening clip 2 for fastening the airbag 1000 can be passed. Theanti-twist protection 4000 is connected to the fastening tab 1100 insuch a manner that the opening 4001 of the anti-twist protection 4000and the fastening opening 1200 of the fastening tab 1100 are alignedwith each other.

The opening 4001 of the anti-twist protection 4000 is of rectangulardesign with dimensions corresponding to the fastening clip 2 such thatthe clip 2 cannot be twisted in the opening 4001. The anti-twistprotection 4000 is formed from a flat plastics material and has athickened portion on its edge 4200 and on the edge of the opening 4001for reinforcement purposes.

FIGS. 20 a and 20 b show an airbag arrangement similar to the airbagarrangement of FIGS. 19 a, 19 b. One difference is that the anti-twistprotection 4000 additionally has a section 4300 which protrudes over thefastening tab 1100 and can be folded over towards the fastening tab1100. This makes it possible for the additional section 4300 of theanti-twist protection 4000 to be able to be folded over onto the head ofa fastening clip during the installation of the airbag 1000. A fasteningclip is not illustrated in the illustration of FIG. 20 a.

However, FIG. 20 b shows the airbag arrangement of FIG. 20 a afterinstallation. A fastening clip 2 (illustrated by dashed lines) is passedboth through the fastening opening of the fastening tab 1100 and throughthe opening of the anti-twist protection. To fit the airbag 1000, thefastening clip 2 is pressed into a receiving opening (not illustrated)arranged in a holding element 3000. This takes place by pressure beingexerted manually onto the head 2100 of the fastening clip 2. In order toprotect the installation person from injuries, the additional section4300 of the anti-twist protection 4000 is folded over onto the head 2100of the fastening clip 2 and pressure is exerted on the fastening clipvia the section 4300. This simplifies the pressing in of the clip 2 andavoids the installation person from cutting himself on sharp edges ofthe head 2100 of the fastening clip 2.

FIG. 21 a shows a further variant of the airbag arrangement. In thiscase, analogously to the variant of FIGS. 19 a, 19 b, an airbag 1000 isconnected to a holding element 3000 via a fastening tab 1100. Theconnection takes place by a fastening clip 2 which is passed through afastening opening 1200 of the fastening tab 1100. The fastening clip hasalready been discussed in conjunction with FIGS. 19 a, 19 b, and so itis not explained further at this point.

Anti-twist protection 4000 through which the fastening clip 2 reaches isagain arranged on the fastening tab 1100. For this purpose, analogouslyto the anti-twist protection of FIGS. 19 a, 19 b, the anti-twistprotection 4000 has a rectangular opening which is designed in acorresponding manner to the cross section of the fastening clip 2, sothat the latter cannot rotate in the opening 4001 of the anti-twistprotection 4000.

The difference from the embodiment of FIGS. 19 a, 19 b is that a pocketinto which the anti-twist protection 4000 is pushed is formed in thefastening tab 1100 by seams 1400. When the fastening clip 2 isinstalled, the anti-twist protection 4000 is then fixed together withthe airbag 1000 on the holding element 3000.

FIG. 21 b shows the components of FIG. 21 a before installation. Thearrow A indicates how the anti-twist protection 4000 is pushed into thepocket 16 formed by the seams 1400. In this case, the opening 4001 inthe anti-twist protection 4000 is arranged in such a manner that it isaligned with the fastening opening 1200 of the fastening tab 1100 whenthe anti-twist protection 4000 is pushed into the fastening tab 1100.

The arrangement illustrated in FIGS. 22 a, 22 b corresponds to theairbag arrangement of FIGS. 21 a, 21 b with the difference thatanti-twist protection 4000 is provided which, analogously to theembodiment of FIGS. 20 a, 20 b additionally has a foldable section 4300.

As FIG. 22 b shows the foldable section 4300 can be folded over onto thehead 2100 of the fastening clip 2 (illustrated by dashed lines). Thisserves, as already described in conjunction with FIG. 20 b, tofacilitate the pressing in of the fastening clip 2 during installationand to provide protection for the fingers during manual installation ofthe fastening clip.

FIG. 23 a constitutes a third variant of the airbag arrangement. Anairbag 1000 likewise has a fastening tab 1100. However, in contrast tothe embodiments of the preceding figures, the fastening tab 1100 isformed by folding over a longer tab formed on the airbag 1000. In thiscase, the free end 151 of the tab 15 is folded over in the direction ofthe airbag 1000, thus producing a reinforced fastening tab 1100. The tab15 has two fastening openings 1200 a, 1200 b which, after the free end151 is folded over, are aligned with each other and produce a fasteningopening 1200 in the fastening tab 1100.

The airbag arrangement of FIG. 23 a likewise has anti-twist protection4000 which is arranged between the folded-over section 152 and thenot-folded-over section 153 of the tab 15. In the illustration of FIG.23 a, the anti-twist protection 4000 is concealed by the folded-oversection 152.

The production of a fastening tab 1100 by folding over can be seen moreclearly in FIG. 23 b. The longer tab 15 of the airbag 1000 is shown herebefore being folded over. To produce the reinforced fastening tab 1100,the free end 151 of the tab 15 is folded over along a folding edge 154on a section 153 of the tab 15.

The anti-twist protection 4000 is inserted between the two sections 152,153 of the tab 15, so that, after the folding-over operation, it issituated between the two main layers of the fastening tab 1100. Theopening 4001 in the anti-twist protection 4000 is arranged in such amanner that it is aligned with the two openings 1200 a, 1200 b of thetab 15 after the free end 151 of the tab 15 is folded over. Theanti-twist protection 4000 inserted between the main layers 152, 153 ofthe tab 15 is illustrated in FIG. 23 c.

The third variant of the airbag arrangement illustrated in FIGS. 23 a to23 c can have, in a manner similar to the exemplary embodiments of FIGS.20 a, 20 b and 22 a, 22 b, anti-twist protection 4000 which forms anadditional tab 4300 which can be folded over as protection for thefingers. This is shown in FIGS. 24 a to 24 c. FIG. 24 b shows how theanti-twist protection 4000 of FIG. 24 a is arranged on the tab 15. Thearrangement of the anti-twist protection 4000 takes place in such amanner that, after the free end 151 of the tab 15 is folded over, thesection 4300 of the anti-twist protection 4000 protrudes out of thefastening tab 1100 produced by the folding-over operation. The section4300 can now be folded from the bottom upwards onto the head of afastening clip 2, thus producing protection for the fingers in a similarmanner to the embodiments shown in FIGS. 20 a, 20 b and 22 a, 22 b. Thisis shown in FIG. 24 c.

A fourth variant of the airbag arrangement according to an embodiment isshown in FIGS. 25 a, 25 b. In this case, in contrast to the precedingembodiment, anti-twist protection 4000 is not fastened directly to afastening tab 1100 of an airbag 1000. On the contrary, the anti-twistprotection 4000 is sewn to the airbag 1000 by the circumferential seam1300. For this purpose, the anti-twist protection 4000 extends beyondthe fastening tab 1100, so that it can be connected in one working steptogether with the sewing of the airbag layers to the airbag 1000 by thecircumferential seam 1300. A view of the anti-twist protection 4000 sewnto the airbag is shown in FIG. 25 b. The fastening clip for fasteningthe airbag 1000 to a holding element is not shown in this illustration.

Also in the fourth embodiment of the airbag arrangement, anti-twistprotection can be provided which additionally has a section which can befolded over and serves to produce protection for the fingers duringinstallation of a fastening clip. This is illustrated in FIGS. 26 a, 26b. Analogously to the embodiments of FIGS. 20 a, 20 b and 22 a, 4 b,anti-twist protection 4000 has a section 4300 which can be folded over.The section 4300 protrudes beyond the free end of the fastening tab 1100of the airbag 1000 and can be folded over onto the head 2100 of afastening clip guided through an opening 4001 of the anti-twistprotection 4000.

The variant in which the anti-twist protection is sewn to the airbag bya circumferential seam is shown once again in FIG. 27 a as a schematicview from above. It can be seen here that the fastening opening 1200formed in a fastening tab 1100 of the airbag 1000, is shaped in acircular manner while the opening 4001 of the anti-twist protection 4000is of rectangular design. The effect achieved by the rectangular shapeof the opening 4001 of the anti-twist protection 4000 is that afastening clip (not illustrated) passed both through the fasteningopening 1200 and through the opening 4001 cannot be twisted.

A further possibility of connecting anti-twist protection 4000 to afastening tab 1100 of an airbag 1000 is shown in FIG. 27 b in a viewfrom above. In this case, the anti-twist protection 4000 is sewn to thefastening tab 1100 by a seam 1400 running in the region of the saidfastening tab 1100. In this case, the anti-twist protection 4000 isarranged with respect to the fastening tab 1100 in such a manner thatthe opening 4001 of the anti-twist protection 4000 is aligned with thefastening opening 1200 of the fastening tab 1100.

FIGS. 28 a, 28 b show a further embodiment of an anti-twist protection.The anti-twist protection is designed here as a holder 4100 which has anopening 401 through which a fastening clip 2 reaches. The holder 4100 isformed from two parts 402 and 403 which are connected to each otherrotatably at one end. The respective free ends 402 a, 403 a of the twoparts 402, 403 can be connected to each other with the aid of thefastening clip 2. A folded airbag (package) can be inserted and heldbetween the two parts 402, 403 of the holder 4100. To insert the airbag(not illustrated), the holder 4100 is swung open and, after the airbagis inserted, the two free ends 402 a and 403 a are connected by thefastening clip 2. This fixes the folded airbag in the holder 4100.

With the aid of the latching elements 2500 of the fastening clip 2, theholder can be connected, for example, to the vehicle body or to afurther holding element connected to the vehicle body. In this case, thelatching elements 2500 of the fastening clip 2 latch in a correspondingreceiving opening. A folded airbag can therefore be prefitted in theholder 4100. For the final installation, the fastening clip 2 is thenmerely pressed into the corresponding receiving openings, for example,in a vehicle body.

In this embodiment, the surface 37 of the first contact section 33 issubstantially parallel to the baseplate 90. The surface 27 of the secondcontact section 23 of each of the stop elements 20 is also substantiallyparallel to the baseplate 90. Thus, the first contact sections 33 of thesnap-on elements 30 are parallel to the second contact sections 23 ofthe stop elements 20.

The unlocking elements 250 and 260 include eyes 6100 and 6200. A toolsuch as a pair of pliers can be inserted into the eyes 6100 and 6200 inorder to press the two unlocking elements 250 and 260 together, causingthe two retaining plates 120 and 130 to be pressed together, so thatthey are then at just a distance which corresponds to the distancebetween the two opening edges 1600 and 1700 of the opening 401. It istherefore possible to pull the fixing element 2 out of the opening 401and to remove the fixing element from the support walls of the holder4100.

The opening 401 arranged in the holder 4100 is designed to correspond tothe fastening clip 2 in such a manner that the latter cannot be twistedin the opening 401. The holder 4100 therefore serves at the same time asanti-twist protection, so that a prefitted fastening clip is always inthe correct position before the installation and does not first have tobe rotated into the correct position by the installation person. FIG. 28b shows the holder of FIG. 28 a in a different perspective.

FIG. 29 shows a modification of an anti-twist protection designed as aholder. A holder 4100 has a clamp-like region 4200 into which a foldedairbag (not illustrated) can be inserted and held. Furthermore, theholder 4100 has a fastening opening 401 through which a fastening clip 2can be guided. By use of the fastening clip 2, an airbag arranged in theholder can be fastened to the holder 4100. At the same time, thefastening clip 2 can be used to fasten the holder to a further part, inparticular to a vehicle body, or to a part connected to a vehicle body.The opening 401 here is again designed in a corresponding manner to thecross section of the fastening clip 2 such that the latter cannot betwisted in the opening 401.

FIG. 30 shows a further modification of an anti-twist protectiondesigned as a holder. Analogously to the embodiment of FIGS. 28 a, 28 b,a holder 4100 has two parts 402, 403 which are connected foldably toeach other. When folded together, the two parts 402, 403 surround afolded airbag 1000 and therefore hold the latter in position.Furthermore, the holder 4100 has an opening 401 for the passage of afastening clip 2. The opening 401 corresponds to the openings of FIGS.28 a, 28 b and 29, i.e. serves analogously as anti-twist protection forthe fastening clip 2 guided through the opening 401.

In addition, the holder 4100 of FIG. 30 has a tab 420 which is connectedmovably to the part 403. In particular, the tab 420 can be folded insuch a manner that it can be folded onto the head 2100 of the fasteningclip 2. The tab 420 therefore serves as protection for the fingers andcan be used in order to press in the fastening clip 2 during theinstallation of the holder 4100 into a receiving opening, for example,of a vehicle body. The function of protection for the fingers hasalready been discussed in conjunction with the preceding exemplaryembodiments and so is not discussed again at this point.

FIG. 31 shows a further variant for providing protection for the fingerson a holder with anti-twist protection. In this case, a holder 4100 forholding an airbag 1000 has, in a similar manner to the exemplaryembodiment of FIG. 30, a tab 420 which can be folded over onto the head2100 of a fastening clip 2. However, in contrast to FIG. 30, the tab 420for the protection for the fingers is not formed on the edge of a partof the holder 4100. On the contrary, the tab 420 is cut out of the part403 of the holder 4100, which simplifies the production of acorresponding holder. A holder of this type is advantageously formedfrom a dimensionally stable material, in particular from aninjection-moulded plastic part.

FIG. 32 shows a further modification of a holder with anti-twistprotection. It can be seen that a holder 4100 again has two parts 402and 403 which, when folded together, surround and therefore hold afolded airbag in the manner of a clip. The part 402 has an opening 401through which a fastening clip 2 is guided. A fastening tab 1100 of theairbag 1000 has a fastening opening 1200 through which the fasteningclip 2 is likewise guided and therefore additionally fixes the fasteningtab 1100 and hence the airbag 1000 to the holder 4100.

The head 2100 of the fastening clip 2 rests on the fastening tab 1100.The part 402 of the holder 4100 has latching structures 4021 which canlatch into openings 4031 arranged and formed in a corresponding mannerin the part 403. The two free ends of the parts 402, 403 can thereforebe connected via a clip connection and the airbag 1000 can be fixed inthe holder 4100. The airbag is additionally surrounded by a protectivecovering 5000 which has an opening 5100 from which the fastening tab1100 of the airbag 1000 protrudes.

The three German priority applications: DE 20 2004 014 219.8 filed Sep.6, 2004, DE 20 2005 019 867.6 filed Dec. 16, 2005, and DE 20 2006 000846.2 filed Jan. 17, 2006, are all incorporated by reference herein intheir entireties.

Given the disclosure of the present invention, one versed in the artwould appreciate that there may be other embodiments and modificationswithin the scope and spirit of the invention. Accordingly, allmodifications attainable by one versed in the art from the presentdisclosure within the scope and spirit of the present invention are tobe included as further embodiments of the present invention. The scopeof the present invention is to be defined as set forth in the followingclaims.

1. A mounting element configured to fit into a through-hole in a surfacein order to secure an airbag to a motor vehicle by contacting both sidesof the surface, the mounting element comprising: an essentiallyrectangular base plate with four sides, wherein two first arms extendfrom a first pair of opposing sides of said base plate facing eachother, both first arms have a first contact section having a firstsurface substantially parallel to the base plate and located a firstdistance from the base plate, two second arms extend from a second pairof opposing sides of said base plate facing each other, both second armshave a second contact section having a second surface substantiallyparallel to the base plate and located a second distance from the baseplate, said second distance being larger than the first distance,whereby at least the first arms extend from the base plate to theirfirst contact section such that their distance from one anotherincreases.
 2. The mounting element according to claim 1, wherein thefirst contact sections are planar.
 3. The mounting element according toclaim 1, wherein the first and second contact sections are parallel toone another.
 4. The mounting element according to claim 1, wherein thefirst arms extend beyond the first contact sections.
 5. The mountingelement according to claim 1, wherein the first arms extend from thebase plate to the first contact sections, form an inward step at thispoint inwardly and extend further after the step.
 6. The mountingelement according to claim 5, wherein the first arms further includeactuation sections located a third distance from the base plate whereinthe third distance is greater than the second distance of the secondcontact sections of the second arms from the base plate.
 7. The mountingelement according to claim 6, wherein the actuation sections furthercomprise a surface having an eye.
 8. The mounting element according toclaim 1, wherein the mounting element is formed from a single piece ofmetal.
 9. A fixing element configured to fit into an opening in asupport wall in order to secure an airbag to a motor vehicle bycontacting both sides of the support wall, the fixing elementcomprising: an essentially rectangular baseplate with four sides,wherein two snap-on elements extend from a first pair of opposing sidesof said baseplate facing each other, both snap-on elements have a firstcontact section having a first surface substantially parallel to thebaseplate and located a first distance from the baseplate, two stopelements extend from a second pair of opposing sides of said baseplatefacing each other, both stop elements have a second contact sectionhaving a second surface substantially parallel to the baseplate andlocated a second distance from the baseplate, said second distance beinglarger than the first distance, whereby at least the snap-on elementsextend from the baseplate to their first contact section such that theirdistance from one another increases.
 10. The fixing element according toclaim 1, wherein the first contact sections are planar.
 11. The fixingelement according to claim 1, wherein the first and second contactsections are parallel to one another.
 12. The fixing element accordingto claim 1, wherein the snap-on elements extend beyond the first contactsections.
 13. The fixing element according to claim 5, wherein thesnap-on elements extend from the baseplate to the first contactsections, form an inward step at this point inwardly and extend furtherafter the step.
 14. The fixing element according to claim 5, wherein thesnap-on elements further include unlocking elements located a thirddistance from the baseplate wherein the third distance is greater thanthe second distance of the second contact sections of the stop elementsfrom the baseplate.
 15. The fixing element according to claim 7, whereinthe unlocking elements further comprise a surface having an eye.
 16. Thefixing element according to claim 1, wherein the fixing element isformed from a single piece of metal.